2021(令和3)年度論文リスト

目次

※ 以下の文献一覧は計算機共同利用者からの申告に基いて作製されました。各文献の内容に関してCfCAは関知しませんので、不明点等がある場合にはそれぞれの文献の著者へ直接お問い合わせください。





査読付き欧文論文

  1. Abe, Daisei and Inoue, Tsuyoshi and Inutsuka, Shu-ichiro et al., (2021), "Classification of Filament Formation Mechanisms in Magnetized Molecular Clouds", The Astrophysical Journal, 916(2): 83. [XC-A; XC-B]
  2. Abe, Katsuya T. and Minoda, Teppei and Tashiro, Hiroyuki, (2022), "Constraint on the early-formed dark matter halos using the free-free emission in the Planck foreground analysis", Physical Review D, 105(6). [XC-B]
  3. Akitsu, Kazuyuki and Kurita, Toshiki and Nishimichi, Takahiro et al., (2021), "Imprint of anisotropic primordial non-Gaussianity on halo intrinsic alignments in simulations", Physical Review D, 103(8). [XC-A; XC-B+; XC-B(追加募集分); XC-MD]
  4. Algaba, J. C. and Anczarski, J. and Asada, K. et al., (2021), "Broadband Multi-wavelength Properties of M87 during the 2017 Event Horizon Telescope Campaign", The Astrophysical Journal Letters, 911(1): L11. [XC-A]
  5. Anfinogentov, Sergey A. and Antolin, Patrick and Inglis, Andrew R. et al., (2022), "Novel Data Analysis Techniques in Coronal Seismology", Space Science Reviews, 218(3). [XC30]
  6. Antolin, Patrick and Martínez-Sykora, Juan and Şahin, Seray, (2022), "Thermal Instability–Induced Fundamental Magnetic Field Strands in the Solar Corona", The Astrophysical Journal Letters, 926(2): L29. [XC-B]
  7. Arimoto, Makoto and Asada, Hideki and Cherry, Michael L et al., (2021), "Gravitational wave physics and astronomy in the nascent era", Progress of Theoretical and Experimental Physics, 0000. [XC-B]
  8. Baba, Junichi and Kawata, Daisuke and Schönrich, Ralph, (2022), "Age distribution of stars in boxy/peanut/X-shaped bulges formed without bar buckling", Monthly Notices of the Royal Astronomical Society, 513(2): 2850-2861. [XC-B]
  9. Barkov, Maxim V and Bosch-Ramon, V, (2021), "Relativistic hydrodynamical simulations of the effects of the stellar wind and the orbit on high-mass microquasar jets", Monthly Notices of the Royal Astronomical Society, 510(3): 3479-3494. [XC-B]
  10. Barkov, Maxim V. and Bosch-Ramon, Valenti, (2021), "The Major Role of Eccentricity in the Evolution of Colliding Pulsar-Stellar Winds", Universe, 7(8): 277. [XC-B; XC30]
  11. Botella, Ignacio and Mineshige, Shin and Kitaki, Takaaki et al., (2022), "Structure of the super-Eddington outflow and its impact on the cosmological scale", Publications of the Astronomical Society of Japan, 74(2): 384-397. [XC-Trial]
  12. Buchner, Johannes and Brightman, Murray and Baloković, Mislav et al., (2021), "Physically motivated X-ray obscurer models", Astronomy & Astrophysics, 651: A58. [XC-B]
  13. Calore, Francesca and Carenza, Pierluca and Eckner, Christopher et al., (2022), "3D template-based Fermi-LAT constraints on the diffuse supernova axion-like particle background", Physical Review D, 105(6). [XC-A; XC-B]
  14. Caputo, Andrea and Carenza, Pierluca and Lucente, Giuseppe et al., (2021), "Axionlike Particles from Hypernovae", Physical Review Letters, 127(18). [XC-A; XC-B; 計算サーバ]
  15. Chan, Hei Yin Jowett and Ferreira, Elisa G M and May, Simon et al., (2022), "The diversity of core–halo structure in the fuzzy dark matter model", Monthly Notices of the Royal Astronomical Society, 511(1): 943-952. [XC-B]
  16. Chibueze, James O. and Sakemi, Haruka and Ohmura, Takumi et al., (2021), "Jets from MRC 0600-399 bent by magnetic fields in the cluster Abell 3376", Nature, 593(7857): 47-50. [XC-B]
  17. Cho, Ilje and Zhao, Guang-Yao and Kawashima, Tomohisa et al., (2022), "The Intrinsic Structure of Sagittarius A* at 1.3 cm and 7 mm", The Astrophysical Journal, 926(2): 108. [XC-A]
  18. Chon, Sunmyon and Omukai, Kazuyuki and Schneider, Raffaella, (2021), "Transition of the initial mass function in the metal-poor environments", Monthly Notices of the Royal Astronomical Society, 508(3): 4175-4192. [XC-B]
  19. De Pontieu, Bart and Polito, Vanessa and Hansteen, Viggo et al., (2021), "A New View of the Solar Interface Region from the Interface Region Imaging Spectrograph (IRIS)", Solar Physics, 296(5). [XC-B]
  20. De Pontieu, Bart and Testa, Paola and Martínez-Sykora, Juan et al., (2022), "Probing the Physics of the Solar Atmosphere with the Multi-slit Solar Explorer (MUSE). I. Coronal Heating", The Astrophysical Journal, 926(1): 52. [XC-B]
  21. Dohi, A. and Nishimura, N. and Hashimoto, M. et al., (2021), "Effects of the Nuclear Equation of State on Type I X-Ray Bursts: Interpretation of the X-Ray Bursts from GS 1826–24", The Astrophysical Journal, 923(1): 64. [計算サーバ]
  22. Ebisu, Toshihiro and Ishiyama, Tomoaki and Hayashi, Kohei, (2022), "Constraining self-interacting dark matter with dwarf spheroidal galaxies and high-resolution cosmological N-body simulations", Physical Review D, 105(2). [XC-A]
  23. Fujibayashi, Sho and Takahashi, Koh and Sekiguchi, Yuichiro et al., (2021), "Ultra-delayed Neutrino-driven Explosion of Rotating Massive-star Collapse", The Astrophysical Journal, 919(2): 80. [XC-B; 計算サーバ]
  24. Fujii, Michiko S and Saitoh, Takayuki R and Hirai, Yutaka et al., (2021), "SIRIUS project. III. Star-by-star simulations of star cluster formation using a direct N-body integrator with stellar feedback", Publications of the Astronomical Society of Japan, 73(4): 1074-1099. [XC-A; XC-B+; XC-B; XC-B+(追加募集分)]
  25. Fujii, Michiko S and Saitoh, Takayuki R and Wang, Long et al., (2021), "SIRIUS project. II. A new tree-direct hybrid code for smoothed particle hydrodynamics/N-body simulations of star clusters", Publications of the Astronomical Society of Japan, 73(4): 1057-1073. [XC-A; XC-B+; XC-B; XC-B+(追加募集分)]
  26. Fujimoto, Keizo and Cao, Jin‐Bin, (2021), "Non‐Adiabatic Electron Heating in the Magnetic Islands During Magnetic Reconnection", Geophysical Research Letters, 48(19). [XC-B; 解析サーバ]
  27. Fujita, Tomohiro and Murai, Kai and Obata, Ippei et al., (2022), "Gravitational wave trispectrum in the axion-SU(2) model", Journal of Cosmology and Astroparticle Physics, 2022(01): 007. [XC-B]
  28. Fukushima, Hajime and Yajima, Hidenobu, (2021), "Radiation hydrodynamics simulations of massive star cluster formation in giant molecular clouds", Monthly Notices of the Royal Astronomical Society, 506(4): 5512-5539. [XC-B; XC-A(追加募集分)]
  29. Fukushima, Hajime and Yajima, Hidenobu, (2022), "Far and extreme UV radiation feedback in molecular clouds and its influence on the mass and size of star clusters", Monthly Notices of the Royal Astronomical Society, 511(3): 3346-3364. [XC-B; XC-A(追加募集分)]
  30. Fung, Jeffrey and Ono, Tomohiro, (2021), "Cooling-induced Vortex Decay in Keplerian Disks", The Astrophysical Journal, 922(1): 13. [XC-B+]
  31. Furuya, Kenji and Oba, Yasuhiro and Shimonishi, Takashi, (2022), "Quantifying the Chemical Desorption of H2S and PH3 from Amorphous Water-ice Surfaces", The Astrophysical Journal, 926(2): 171. [計算サーバ]
  32. Furuya, Kenji and Tsukagoshi, Takashi and Qi, Chunhua et al., (2022), "Detection of HC18O+ in a Protoplanetary Disk: Exploring Oxygen Isotope Fractionation of CO", The Astrophysical Journal, 926(2): 148. [計算サーバ]
  33. Guo, Kangrou and Kokubo, Eiichiro, (2021), "Planetesimal Dynamics in the Presence of a Giant Planet", The Astronomical Journal, 162(3): 115. [計算サーバ]
  34. Hasegawa, Yukihiko and Suzuki, Takeru K. and Tanaka, Hidekazu et al., (2021), "Collisional Growth and Fragmentation of Dust Aggregates with Low Mass Ratios. I. Critical Collision Velocity for Water Ice", The Astrophysical Journal, 915(1): 22. [XC-B; 計算サーバ]
  35. Hirai, Yutaka and Fujii, Michiko S and Saitoh, Takayuki R, (2021), "SIRIUS project. I. Star formation models for star-by-star simulations of star clusters and galaxy formation", Publications of the Astronomical Society of Japan, 73(4): 1036-1056. [XC-A; XC-B; XC-B+(追加募集分)]
  36. Hiramatsu, Daichi and Howell, D. Andrew and Van Dyk, Schuyler D. et al., (2021), "The electron-capture origin of supernova 2018zd", Nature Astronomy, 5(9): 903-910. [計算サーバ]
  37. Hirano, Shingo and Machida, Masahiro N. and Basu, Shantanu, (2021), "Supermassive Star Formation in Magnetized Atomic-cooling Gas Clouds: Enhanced Accretion, Intermittent Fragmentation, and Continuous Mergers", The Astrophysical Journal, 917(1): 34. [XC-B]
  38. Hiroshima, Nagisa and Kohri, Kazunori and Sekiguchi, Toyokazu et al., (2021), "Impacts of new small-scale N-body simulations on dark matter annihilations constrained from cosmological 21-cm line observations", Physical Review D, 104(8). [XC-B+]
  39. Hozumi, Shunsuke, (2021), "Intrinsic properties of the bars formed by the bar instability in flat stellar discs", Monthly Notices of the Royal Astronomical Society, 510(3): 4394-4404. [XC-B]
  40. Iijima, Haruhisa, (2021), "Energy-consistent finite difference schemes for compressible hydrodynamics and magnetohydrodynamics using nonlinear filtering", Journal of Computational Physics, 435(4): 110232. [XC-B+]
  41. Iijima, Haruhisa and Imada, Shinsuke, (2021), "A New Broadening Technique of the Numerically Unresolved Solar Transition Region and Its Effect on the Spectroscopic Synthesis Using Coronal Approximation", The Astrophysical Journal, 917(2): 65. [XC-A]
  42. Iles, Elizabeth J and Pettitt, Alex R and Okamoto, Takashi, (2021), "Differences in star formation activity between tidally triggered and isolated bars: a case study of NGC 4303 and NGC 3627", Monthly Notices of the Royal Astronomical Society, 510(3): 3899-3916. [XC-A; XC-B]
  43. Inayoshi, Kohei and Nakatani, Riouhei and Toyouchi, Daisuke et al., (2022), "Rapid Growth of Seed Black Holes during Early Bulge Formation", The Astrophysical Journal, 927(2): 237. [XC-B]
  44. Inoue, Shigeki and Yoshida, Naoki and Hernquist, Lars, (2021), "Fragmentation of ring galaxies and transformation to clumpy galaxies", Monthly Notices of the Royal Astronomical Society, 507(4): 6140-6147. [XC-B+]
  45. Inoue, Tsuyoshi and Marcowith, Alexandre and Giacinti, Gwenael et al., (2021), "Direct Numerical Simulations of Cosmic-ray Acceleration at Dense Circumstellar Medium: Magnetic-field Amplification and Maximum Energy", The Astrophysical Journal, 922(1): 7. [XC-A]
  46. Ishigaki, Yota and Kominami, Junko and Makino, Junichiro et al., (2021), "Particle–particle particle–tree code for planetary system formation with individual cut-off method: GPLUM", Publications of the Astronomical Society of Japan, 73(3): 660-676. [XC-B]
  47. Ishikawa, Ryohtaroh T. and Nakata, Motoki and Katsukawa, Yukio et al., (2022), "Multi-scale deep learning for estimating horizontal velocity fields on the solar surface", Astronomy & Astrophysics, 658: A142. [XC-B]
  48. Ishikawa, Shogo and Okumura, Teppei and Oguri, Masamune et al., (2021), "Halo-model Analysis of the Clustering of Photometric Luminous Red Galaxies at 0.10 ≤ z ≤1.05 from the Subaru Hyper Suprime-Cam Survey", The Astrophysical Journal, 922(1): 23. [CfCA内部 (XC50)]
  49. Ishiyama, Tomoaki and Prada, Francisco and Klypin, Anatoly A et al., (2021), "The Uchuu simulations: Data Release 1 and dark matter halo concentrations", Monthly Notices of the Royal Astronomical Society, 506(3): 4210-4231. [XC-A]
  50. Ishiyama, Tomoaki and Yoshikawa, Kohji and Tanikawa, Ataru, (2022), "High Performance Gravitational N-body Simulations on Supercomputer Fugaku", International Conference on High Performance Computing in Asia-Pacific Region. [XC-A]
  51. Ishizaki, Wataru and Ioka, Kunihito and Kiuchi, Kenta, (2021), "Fallback Accretion Model for the Years-to-decades X-Ray Counterpart to GW170817", The Astrophysical Journal Letters, 916(2): L13. [XC-A]
  52. Ishizaki, Wataru and Kiuchi, Kenta and Ioka, Kunihito et al., (2021), "Fallback Accretion Halted by R-process Heating in Neutron Star Mergers and Gamma-Ray Bursts", The Astrophysical Journal, 922(2): 185. [XC-A]
  53. Ito, Hirotaka and Just, Oliver and Takei, Yuki et al., (2021), "A Global Numerical Model of the Prompt Emission in Short Gamma-ray Bursts", The Astrophysical Journal, 918(2): 59. [XC-B]
  54. Ivanov, Mikhail M. and Philcox, Oliver H. E. and Nishimichi, Takahiro et al., (2022), "Precision analysis of the redshift-space galaxy bispectrum", Physical Review D, 105(6). [XC-A]
  55. Ivanov, Mikhail M. and Philcox, Oliver H. E. and Simonović, Marko et al., (2022), "Cosmological constraints without nonlinear redshift-space distortions", Physical Review D, 105(4). [XC-A]
  56. Iwamoto, Masanori and Amano, Takanobu and Matsumoto, Yosuke et al., (2022), "Particle Acceleration by Pickup Process Upstream of Relativistic Shocks", The Astrophysical Journal, 924(2): 108. [XC-B+]
  57. Kamijima, Shoma F. and Ohira, Yutaka, (2021), "Escape of cosmic rays from perpendicular shocks in the interstellar magnetic field", Physical Review D, 104(8). [XC-B]
  58. Kanagawa, Kazuhiro D. and Muto, Takayuki and Tanaka, Hidekazu, (2021), "Dust Rings as a Footprint of Planet Formation in a Protoplanetary Disk", The Astrophysical Journal, 921(2): 169. [XC-B]
  59. Kato, Chinami and Nagakura, Hiroki and Morinaga, Taiki, (2021), "Neutrino Transport with the Monte Carlo Method. II. Quantum Kinetic Equations", The Astrophysical Journal Supplement Series, 257(2): 55. [XC-B]
  60. Kato, Masaki and Furusawa, Shun and Suzuki, Katsuhiko, (2021), "Electron In-Medium Effects on Electron Captures of Neutron-Rich Nuclei in Stellar Core Collapse", Journal of the Physical Society of Japan, 90(10): 105001. [計算サーバ]
  61. Kawashima, Tomohisa and Ishiguro, Seiji and Moritaka, Toseo et al., (2022), "Mushroom-instability-driven Magnetic Reconnections in Collisionless Relativistic Jets", The Astrophysical Journal, 928(1): 62. [XC30]
  62. Kawashima, Yui and Min, Michiel, (2021), "Implementation of disequilibrium chemistry to spectral retrieval code ARCiS and application to 16 exoplanet transmission spectra", Astronomy & Astrophysics, 656: A90. [GRAPE/GPU; 計算サーバ]
  63. Kawata, Daisuke and Baba, Junichi and Hunt, Jason A S et al., (2021), "Galactic bar resonances inferred from kinematically hot stars in Gaia EDR3", Monthly Notices of the Royal Astronomical Society, 508(1): 728-736. [XC-B]
  64. Kawazura, Y., (2022), "CALLIOPE: Pseudospectral Shearing Magnetohydrodynamics Code with a Pencil Decomposition", The Astrophysical Journal, 928(2): 113. [XC-B+]
  65. Kimura, Kazutaka and Hosokawa, Takashi and Sugimura, Kazuyuki, (2021), "Growth of Massive Disks and Early Disk Fragmentation in Primordial Star Formation", The Astrophysical Journal, 911(1): 52. [XC-B; XC-MD]
  66. Kimura, Yuki and Yamamoto, Kazuo and Wakita, Shigeru, (2021), "Electron Holography Details the Tagish Lake Parent Body and Implies Early Planetary Dynamics of the Solar System", The Astrophysical Journal Letters, 917(1): L5. [計算サーバ]
  67. Kinoshita, Shinichi. W. and Nakamura, Fumitaka and Wu, Benjamin, (2021), "Star Formation Triggered by Shocks", The Astrophysical Journal, 921(2): 150. [XC-MD]
  68. Kisaka, Shota and Levinson, Amir and Toma, Kenji et al., (2022), "The Response of Black Hole Spark Gaps to External Changes: A Production Mechanism of Rapid TeV Flares?", The Astrophysical Journal, 924(1): 28. [XC-B]
  69. Kobayashi, Hiroshi and Tanaka, Hidekazu, (2021), "Rapid Formation of Gas-giant Planets via Collisional Coagulation from Dust Grains to Planetary Cores", The Astrophysical Journal, 922(1): 16. [XC-B]
  70. Kooistra, Robin and Inoue, Shigeki and Lee, Khee-Gan et al., (2022), "Detecting Preheating in Protoclusters with Lyα Forest Tomography", The Astrophysical Journal, 927(1): 53. [XC-B+]
  71. Krachmalnicoff, N. and Matsumura, T. and de la Hoz, E. et al., (2022), "In-flight polarization angle calibration for LiteBIRD: blind challenge and cosmological implications", Journal of Cosmology and Astroparticle Physics, 2022(01): 039. [XC-B]
  72. Kunitomo, Masanobu and Guillot, Tristan, (2021), "Imprint of planet formation in the deep interior of the Sun", Astronomy & Astrophysics, 655: A51. [計算サーバ]
  73. Kuroda, Takami and Fischer, Tobias and Takiwaki, Tomoya et al., (2022), "Core-collapse Supernova Simulations and the Formation of Neutron Stars, Hybrid Stars, and Black Holes", The Astrophysical Journal, 924(1): 38. [XC-A]
  74. Kurosawa, Kosuke and Moriwaki, Ryota and Yabuta, Hikaru et al., (2021), "Ryugu’s observed volatile loss did not arise from impact heating alone", Communications Earth & Environment, 2(1). [計算サーバ]
  75. Kyutoku, Koutarou and Shibata, Masaru and Taniguchi, Keisuke, (2021), "Coalescence of black hole–neutron star binaries", Living Reviews in Relativity, 24(1). [XC-A]
  76. Lotay, G. and Gillespie, S. A. and Williams, M. et al., (2021), "First Direct Measurement of an Astrophysical p-Process Reaction Cross Section Using a Radioactive Ion Beam", Physical Review Letters, 127(11). [計算サーバ]
  77. Malhotra, Renu and Ito, Takashi, (2022), "Pluto near the edge of chaos", Proceedings of the National Academy of Sciences, 119(15). [中規模サーバ; 計算サーバ]
  78. Manwadkar, Viraj and Kol, Barak and Trani, Alessandro A et al., (2021), "Testing the flux-based statistical prediction of the three-body problem", Monthly Notices of the Royal Astronomical Society, 506(1): 692-708. [計算サーバ]
  79. Masada, Youhei and Takiwaki, Tomoya and Kotake, Kei, (2022), "Convection and Dynamo in Newly Born Neutron Stars", The Astrophysical Journal, 924(2): 75. [XC-B]
  80. Matsumoto, Yuji and Kokubo, Eiichiro and Gu, Pin-Gao et al., (2021), "Size Evolution of Close-in Super-Earths through Giant Impacts and Photoevaporation", The Astrophysical Journal, 923(1): 81. [計算サーバ]
  81. Mehta, Riddhi and Barkov, Maxim and Lyutikov, Maxim, (2021), "Radio afterglow of magnetars’ giant flares", Monthly Notices of the Royal Astronomical Society, 506(4): 6093-6110. [XC-B]
  82. Mitani, Hiroto and Nakatani, Riouhei and Yoshida, Naoki, (2022), "Stellar wind effect on the atmospheric escape of hot Jupiters and their Ly α and H α transits", Monthly Notices of the Royal Astronomical Society, 512(1): 855-860. [XC-B]
  83. Momose, Rieko and Shimizu, Ikkoh and Nagamine, Kentaro et al., (2021), "Connection between Galaxies and H i in Circumgalactic and Intergalactic Media: Variation according to Galaxy Stellar Mass and Star Formation Activity", The Astrophysical Journal, 911(2): 98. [XC-B]
  84. Mori, Kanji and Takiwaki, Tomoya and Kotake, Kei et al., (2022), "Shock revival in core-collapse supernovae assisted by heavy axionlike particles", Physical Review D, 105(6). [XC-B(追加募集分); XC-Trial; 計算サーバ]
  85. Mori, Kanji and Takiwaki, Tomoya and Kotake, Kei, (2022), "Presupernova ultralight axionlike particles", Physical Review D, 105(2). [計算サーバ]
  86. Moriya, Takashi J and Blinnikov, Sergei I, (2021), "Properties of Thorne–Żytkow object explosions", Monthly Notices of the Royal Astronomical Society, 508(1): 74-78. [CfCA内部 (計算サーバ)]
  87. Nagamine, Kentaro and Shimizu, Ikkoh and Fujita, Katsumi et al., (2021), "Probing Feedback via IGM tomography and the Lyα Forest with Subaru PFS, TMT/ELT, and JWST", The Astrophysical Journal, 914(1): 66. [XC-B]
  88. Nakajima, Miki and Genda, Hidenori and Asphaug, Erik et al., (2022), "Large planets may not form fractionally large moons", Nature Communications, 13(1). [GRAPE/GPU]
  89. Nakajima, Miki and Golabek, Gregor J. and Wünnemann, Kai et al., (2021), "Scaling laws for the geometry of an impact-induced magma ocean", Earth and Planetary Science Letters, 568: 116983. [GRAPE/GPU]
  90. Nakariakov, V. M. and Anfinogentov, S. A. and Antolin, P. et al., (2021), "Kink Oscillations of Coronal Loops", Space Science Reviews, 217(6). [XC-B]
  91. Nakatani, Riouhei and Kobayashi, Hiroshi and Kuiper, Rolf et al., (2021), "Photoevaporation of Grain-depleted Protoplanetary Disks around Intermediate-mass Stars: Investigating the Possibility of Gas-rich Debris Disks as Protoplanetary Remnants", The Astrophysical Journal, 915(2): 90. [XC-B]
  92. Nakazato, Ken’ichiro and Nakanishi, Fumi and Harada, Masayuki et al., (2022), "Observing Supernova Neutrino Light Curves with Super-Kamiokande. II. Impact of the Nuclear Equation of State", The Astrophysical Journal, 925(1): 98. [XC-B]
  93. Nakazato, Yurina and Chiaki, Gen and Yoshida, Naoki et al., (2022), "H2 Cooling and Gravitational Collapse of Supersonically Induced Gas Objects", The Astrophysical Journal Letters, 927(1): L12. [XC-B; XC-MD]
  94. Nishiwaki, Kosuke and Asano, Katsuaki and Murase, Kohta, (2021), "Particle Reacceleration by Turbulence and Radio Constraints on Multimessenger High-energy Emission from the Coma Cluster", The Astrophysical Journal, 922(2): 190. [XC-Trial]
  95. Nomura, Mariko and Omukai, Kazuyuki and Ohsuga, Ken, (2021), "Radiation hydrodynamics simulations of line-driven AGN disc winds: metallicity dependence and black hole growth", Monthly Notices of the Royal Astronomical Society, 507(1): 904-913. [XC-B]
  96. Notsu, Shota and van Dishoeck, Ewine F. and Walsh, Catherine et al., (2021), "X-ray-induced chemistry of water and related molecules in low-mass protostellar envelopes", Astronomy & Astrophysics, 650: A180. [計算サーバ]
  97. Ogawa, Takumi and Ohsuga, Ken and Makino, Yoshihiro et al., (2021), "Variability of Comptonized X-ray spectra of a super-Eddington accretor: Approach using Boltzmann radiation transport", Publications of the Astronomical Society of Japan, 73(3): 701-715. [XC-B]
  98. Ogawa, Shoji and Ueda, Yoshihiro and Wada, Keiichi et al., (2022), "Warm Absorbers in the Radiation-driven Fountain Model of Low-mass Active Galactic Nuclei", The Astrophysical Journal, 925(1): 55. [XC-B]
  99. Ogihara, Masahiro and Hori, Yasunori and Kunitomo, Masanobu et al., (2021), "Formation of giant planets with large metal masses and metal fractions via giant impacts in a rapidly dissipating disk", Astronomy & Astrophysics, 648: L1. [計算サーバ]
  100. Ogihara, Masahiro and Kokubo, Eiichiro and Nakano, Ryuunosuke et al., (2022), "Rapid-then-slow migration reproduces mass distribution of TRAPPIST-1 system", Astronomy & Astrophysics, 658: A184. [XC-B; 計算サーバ; CfCA内部 (XC50;GRAPE/GPU)]
  101. Ohira, Yutaka, (2021), "The Biermann Battery Driven by a Streaming Plasma", The Astrophysical Journal, 911(1): 26. [XC-A]
  102. Ohmura, T. and Ono, K. and Sakemi, H. et al., (2021), "Continuous Jets and Backflow Models for the Formation of W50/SS 433 in Magnetohydrodynamics Simulations", The Astrophysical Journal, 910(2): 149. [XC-B]
  103. Ohno, Kazumasa and Ueda, Takahiro, (2021), "Jupiter’s “cold” formation in the protosolar disk shadow", Astronomy & Astrophysics, 651: L2. [XC-Trial; 計算サーバ]
  104. Okamura, Tatsuya and Kobayashi, Hiroshi, (2021), "The Growth of Protoplanets via the Accretion of Small Bodies in Disks Perturbed by the Planetary Gravity", The Astrophysical Journal, 916(2): 109. [XC-B]
  105. Osato, Ken and Nishimichi, Takahiro and Taruya, Atsushi et al., (2021), "Implementing spectra response function approaches for fast calculation of power spectra and bispectra", Physical Review D, 104(10). [XC-A; XC-B]
  106. Perna, Rosalba and Tagawa, Hiromichi and Haiman, Zoltán et al., (2021), "Accretion-Induced Collapse of Neutron Stars in the Disks of Active Galactic Nuclei", The Astrophysical Journal, 915(1): 10. [XC-B]
  107. Sadanari, Kenji Eric and Omukai, Kazuyuki and Sugimura, Kazuyuki et al., (2021), "Magnetohydrodynamic effect on first star formation: pre-stellar core collapse and protostar formation", Monthly Notices of the Royal Astronomical Society, 505(3): 4197-4214. [XC-B]
  108. Shibata, S. and Helled, R. and Ikoma, M., (2022), "The origin of the high metallicity of close-in giant exoplanets", Astronomy & Astrophysics, 659: A28. [XC-B]
  109. Shibata, Sho and Helled, Ravit, (2022), "Enrichment of Jupiter’s Atmosphere by Late Planetesimal Bombardment", The Astrophysical Journal Letters, 926(2): L37. [XC-B]
  110. Shibata, Takashi and Kokubo, Eiichiro and Hosono, Natsuki, (2021), "Merging Criteria for Planetesimal Collisions", The Astrophysical Journal, 921(2): 163. [XC-B; CfCA内部 (XC50;GRAPE/GPU)]
  111. Shima, Kazuhiro and Hosokawa, Takashi, (2021), "Gravitational fragmentation of extremely metal-poor circumstellar discs", Monthly Notices of the Royal Astronomical Society, 508(4): 4767-4785. [XC-B]
  112. Shiraishi, Maresuke and Akitsu, Kazuyuki and Okumura, Teppei, (2021), "Alcock-Paczynski effects on wide-angle galaxy statistics", Physical Review D, 103(12). [XC-B]
  113. Shirasaki, Masato and Ishiyama, Tomoaki and Ando, Shin’ichiro, (2021), "Virial Halo Mass Function in the Planck Cosmology", The Astrophysical Journal, 922(1): 89. [XC-A; XC-B]
  114. Shoda, Munehito and Chandran, Benjamin D. G. and Cranmer, Steven R., (2021), "Turbulent Generation of Magnetic Switchbacks in the Alfvénic Solar Wind", The Astrophysical Journal, 915(1): 52. [XC-B; 計算サーバ]
  115. Shoda, Munehito and Takasao, Shinsuke, (2021), "Corona and XUV emission modelling of the Sun and Sun-like stars", Astronomy & Astrophysics, 656: A111. [XC-B; 計算サーバ]
  116. Sinigaglia, Francesco and Kitaura, Francisco-Shu and Balaguera-Antolínez, A. et al., (2021), "The Bias from Hydrodynamic Simulations: Mapping Baryon Physics onto Dark Matter Fields", The Astrophysical Journal, 921(1): 66. [XC-B]
  117. Sinigaglia, Francesco and Kitaura, Francisco-Shu and Balaguera-Antolínez, Andrés et al., (2022), "Mapping the Three-dimensional Lyα Forest Large-scale Structure in Real and Redshift Space*", The Astrophysical Journal, 927(2): 230. [XC-B]
  118. Sorahana, Satoko and Kobayashi, Hiroshi and Tanaka, Kyoko K., (2021), "Effect of Dust Size on the Near-infrared Spectra (1.0–5.0 μm) of Brown Dwarf Atmospheres", The Astrophysical Journal, 919(2): 117. [XC-B]
  119. Suda, Takuma and Saitoh, Takayuki R and Moritani, Yuki et al., (2021), "First star survivors as metal-rich halo stars that experienced supernova explosions in binary systems", Publications of the Astronomical Society of Japan, 73(3): 609-629. [XC-B]
  120. Sugiura, Keisuke and Kobayashi, Hiroshi and Watanabe, Sei-ichiro et al., (2021), "SPH simulations for shape deformation of rubble-pile asteroids through spinup: The challenge for making top-shaped asteroids Ryugu and Bennu", Icarus, 365: 114505. [XC-A]
  121. Suzuki, Akihiro and Maeda, Keiichi, (2022), "Chemical Stratification in a Long Gamma-Ray Burst Cocoon and Early-time Spectral Signatures of Supernovae Associated with Gamma-Ray Bursts", The Astrophysical Journal, 925(2): 148. [XC-B+]
  122. Tagawa, Hiromichi and Haiman, Zoltán and Bartos, Imre et al., (2021), "Signatures of hierarchical mergers in black hole spin and mass distribution", Monthly Notices of the Royal Astronomical Society, 507(3): 3362-3380. [XC-B]
  123. Takahashi, Ryuichi and Kohri, Kazunori, (2021), "Cosmological boost factor for dark matter annihilation at redshifts of z=10100 using the power spectrum approach", Physical Review D, 104(10). [XC-B+]
  124. Takaishi, Daisuke and Tsukamoto, Yusuke and Suto, Yasushi, (2021), "A new formation scenario of a counter-rotating circumstellar disk: Spiral-arm accretion from a circumbinary disk in a triple protostar system", Publications of the Astronomical Society of Japan, 73(5): L25-L30. [XC-MD]
  125. Takasao, Shinsuke and Aoyama, Yuhiko and Ikoma, Masahiro, (2021), "Hydrodynamic Model of Hα Emission from Accretion Shocks of a Proto-giant Planet and Circumplanetary Disk", The Astrophysical Journal, 921(1): 10. [XC-B+; XC-B]
  126. Takasao, Shinsuke and Shuto, Yuri and Wada, Keiichi, (2022), "Spontaneous Formation of Outflows Powered by Rotating Magnetized Accretion Flows in a Galactic Center", The Astrophysical Journal, 926(1): 50. [XC-B+]
  127. Takiwaki, Tomoya and Kotake, Kei and Foglizzo, Thierry, (2021), "Insights into non-axisymmetric instabilities in three-dimensional rotating supernova models with neutrino and gravitational-wave signatures", Monthly Notices of the Royal Astronomical Society, 508(1): 966-985. [CfCA内部 (XC50;計算サーバ)]
  128. Tanaka, Yuki A. and Kanagawa, Kazuhiro D. and Tanaka, Hidekazu et al., (2022), "Eccentric Gap Induced by a Super-Jupiter-mass Planet", The Astrophysical Journal, 925(1): 95. [XC-B]
  129. Tanikawa, Ataru and Yoshida, Takashi and Kinugawa, Tomoya et al., (2022), "Merger Rate Density of Binary Black Holes through Isolated Population I, II, III and Extremely Metal-poor Binary Star Evolution", The Astrophysical Journal, 926(1): 83. [中規模サーバ]
  130. Tarumi, Yuta and Suda, Takuma and van de Voort, Freeke et al., (2021), "s-process enrichment of ultrafaint dwarf galaxies", Monthly Notices of the Royal Astronomical Society, 505(3): 3755-3766. [XC-MD]
  131. Tarumi, Yuta and Yoshida, Naoki and Frebel, Anna, (2021), "Formation of an Extended Stellar Halo around an Ultra-faint Dwarf Galaxy Following One of the Earliest Mergers from Galactic Building Blocks", The Astrophysical Journal Letters, 914(1): L10. [XC-MD]
  132. Tarumi, Yuta and Yoshida, Naoki and Inoue, Shigeki, (2021), "Internal R-process Abundance Spread of M15 and a Single Stellar Population Model", The Astrophysical Journal Letters, 921(1): L11. [XC-MD]
  133. Taruya, Atsushi and Akitsu, Kazuyuki, (2021), "Lagrangian approach to super-sample effects on biased tracers at field level: galaxy density fields and intrinsic alignments", Journal of Cosmology and Astroparticle Physics, 2021(11): 061. [XC-B]
  134. Toriumi, Shin, (2021), "Flux emergence and generation of flare-productive active regions", Advances in Space Research, in press. [XC-A]
  135. Trani, Alessandro A and Rastello, Sara and Carlo, Ugo N Di et al., (2022), "Compact object mergers in hierarchical triples from low-mass young star clusters", Monthly Notices of the Royal Astronomical Society, 511(1): 1362-1372. [計算サーバ]
  136. Trani, A A and Tanikawa, A and Fujii, M S et al., (2021), "Spin misalignment of black hole binaries from young star clusters: implications for the origin of gravitational waves events", Monthly Notices of the Royal Astronomical Society, 504(1): 910-919. [XC-B; GRAPE/GPU; 計算サーバ]
  137. Tsukamoto, Y. and Machida, M. N. and Inutsuka, S., (2021), "Conditions for Justifying Single-fluid Approximation for Charged and Neutral Dust Fluids and a Smoothed Particle Magnetohydrodynamics Method for Dust–Gas Mixture", The Astrophysical Journal, 913(2): 148. [XC-B+]
  138. Tsukamoto, Yusuke and Machida, Masahiro N. and Inutsuka, Shu-ichiro, (2021), "“Ashfall” Induced by Molecular Outflow in Protostar Evolution", The Astrophysical Journal Letters, 920(2): L35. [XC-B+]
  139. Tsunetoe, Yuh and Mineshige, Shin and Ohsuga, Ken et al., (2021), "Polarization images of accretion flow around supermassive black holes: Imprints of toroidal field structure", Publications of the Astronomical Society of Japan, 73(4): 912-928. [XC-B]
  140. Ueda, Takahiro and Kataoka, Akimasa and Zhang, Shangjia et al., (2021), "Impact of Differential Dust Settling on the SED and Polarization: Application to the Inner Region of the HL Tau Disk", The Astrophysical Journal, 913(2): 117. [XC-Trial]
  141. Ueda, Takahiro and Ogihara, Masahiro and Kokubo, Eiichiro et al., (2021), "Early Initiation of Inner Solar System Formation at the Dead-zone Inner Edge", The Astrophysical Journal Letters, 921(1): L5. [計算サーバ; CfCA内部 (XC50;GRAPE/GPU)]
  142. Ueno, Genta and Zenitani, Seiji, (2021), "Relativistic Maxwellian mixture model", Physics of Plasmas, 28(12): 122106. [XC-B]
  143. Uzuo, Taisei and Wada, Keiichi and Izumi, Takuma et al., (2021), "Circumnuclear Multi-phase Gas in Circinus Galaxy IV: Absorption Owing to High-J CO Rotational Transitions", The Astrophysical Journal, 915(2): 89. [XC-B; XC-MD]
  144. Wakita, Shigeru and Johnson, Brandon C. et al., (2021), "Jetting during oblique impacts of spherical impactors", Icarus, 360(1): 114365. [計算サーバ]
  145. Wang, Long and Fujii, Michiko S and Tanikawa, Ataru, (2021), "Impact of initial mass functions on the dynamical channel of gravitational wave sources", Monthly Notices of the Royal Astronomical Society, 504(4): 5778-5787. [XC-B+; XC-B; GRAPE/GPU]
  146. Wang, Long and Tanikawa, Ataru and Fujii, Michiko S, (2021), "The impact of primordial binary on the dynamical evolution of intermediate massive star clusters", Monthly Notices of the Royal Astronomical Society, 509(4): 4713-4722. [XC-B+; XC-B; GRAPE/GPU]
  147. Wang, Shijie and Kanagawa, Kazuhiro D. and Suto, Yasushi, (2021), "Architecture of Planetary Systems Predicted from Protoplanetary Disks Observed with ALMA. I. Mass of the Possible Planets Embedded in the Dust Gap", The Astrophysical Journal, 923(2): 165. [計算サーバ]
  148. Wang, Yikang and Yokoyama, Takaaki and Iijima, Haruhisa, (2021), "Fast Magnetic Wave Could Heat the Solar Low-beta Chromosphere", The Astrophysical Journal Letters, 916(2): L10. [XC-A]
  149. Washinoue, Haruka and Suzuki, Takeru K, (2021), "Coronal properties of low-mass Population III stars and the radiative feedback in the early universe", Monthly Notices of the Royal Astronomical Society, 506(1): 1284-1294. [XC-B; 計算サーバ]
  150. Wong, Emily W. and Brasser, Ramon and Werner, Stephanie C., (2021), "Early impact chronology of the icy regular satellites of the outer solar system", Icarus, 358: 114184. [計算サーバ]
  151. Yajima, Hidenobu and Abe, Makito and Khochfar, Sadegh et al., (2021), "FOREVER22: galaxy formation in protocluster regions", Monthly Notices of the Royal Astronomical Society, 509(3): 4037-4057. [XC-B]
  152. Yamamoto, Yasuyoshi and Okamoto, Takashi and Saitoh, Takayuki R, (2021), "Testing the effect of resolution on gravitational fragmentation with Lagrangian hydrodynamic schemes", Monthly Notices of the Royal Astronomical Society, 504(3): 3986-3995. [XC-A; XC-B]
  153. Yamauchi, Daisuke and Sugiyama, Naonori S., (2022), "Second-order peculiar velocity field as a novel probe of scalar-tensor theories", Physical Review D, 105(6). [XC-B]
  154. Yoshida, Takashi and Takiwaki, Tomoya and Aguilera-Dena, David R et al., (2021), "A three-dimensional hydrodynamics simulation of oxygen-shell burning in the final evolution of a fast-rotating massive star", Monthly Notices of the Royal Astronomical Society: Letters, 506(1): L20-L25. [XC-B+]
  155. Zaizen, Masamichi and Morinaga, Taiki, (2021), "Nonlinear evolution of fast neutrino flavor conversion in the preshock region of core-collapse supernovae", Physical Review D, 104(8). [XC-B+]
  156. Zhou, Enping and Kiuchi, Kenta and Shibata, Masaru et al., (2021), "Evolution of bare quark stars in full general relativity: Single star case", Physical Review D, 103(12). [XC-A]
  157. de Leon, J P and Livingston, J and Endl, M et al., (2021), "37 new validated planets in overlapping K2 campaigns", Monthly Notices of the Royal Astronomical Society, 508(1): 195-218. [計算サーバ]

    158. これ以下は利用者から報告されてはいないものの謝辞内にCfCAの共同計算機利用が明記されている論文です (国立天文台研究評価支援室の調査結果)。

  158. Abe, Makito and Yajima, Hidenobu and Khochfar, Sadegh et al., (2021), "Formation of the first galaxies in the aftermath of the first supernovae", Monthly Notices of the Royal Astronomical Society, 508(3): 3226-3238. [XC-B]
  159. Harada, Akira and Nagakura, Hiroki, (2022), "Prospects of Fast Flavor Neutrino Conversion in Rotating Core-collapse Supernovae", The Astrophysical Journal, 924(2): 109. [XC30]
  160. Hotta, H. and Kusano, K., (2021), "Solar differential rotation reproduced with high-resolution simulation", Nature Astronomy, 5(11): 1100-1102. [XC50]
  161. Komatsu, Yu and Takizawa Kenji, (2021), "A quantum chemical study on the effects of varying the central metal in extended photosynthetic pigments", Physical Chemistry Chemical Physics, 23(26): 14404-14414. [XC30; XC-B]
  162. Nishigai, Takuro and Amano, Takanobu, (2021), "Mach number dependence of ion-scale kinetic instability at collisionless perpendicular shock: Condition for Weibel-dominated shock", Physics of Plasmas, 28(7). [XC50]
  163. Nomura, Hideko and Tsukagoshi, Takashi and Kawabe, Ryohei et al., (2021), "High Spatial Resolution Observations of Molecular Lines toward the Protoplanetary Disk around TW Hya with ALMA", The Astrophysical Journal, 914(2): 113. [計算サーバ]
  164. Roca-Fàbrega, Santi and Kim, Ji-hoon and Hausammann, Loic et al., (2021), "The AGORA High-resolution Galaxy Simulations Comparison Project. III. Cosmological Zoom-in Simulation of a Milky Way–mass Halo", The Astrophysical Journal, 917(2): 64. [XC50]
  165. Sakaue, Takahito and Shibata, Kazunari, (2021), "An M Dwarf’s Chromosphere, Corona, and Wind Connection via Nonlinear Alfvén Waves", The Astrophysical Journal, 919(1): 29. [XC50]
  166. Sasaki, Hirokazu and Takiwaki, Tomoya, (2021), "Neutrino-antineutrino oscillations induced by strong magnetic fields in dense matter", Physical Review D, 104(2). [計算サーバ; CfCA内部 (XC50)]
  167. Shirasaki, Masato, (2021), "Searching for eV-mass axionlike particles with cross correlations between line intensity and weak lensing maps", Physical Review D, 103(10). [XC-B]
  168. Shirasaki, Masato and Egami, Eiichi and Okabe, Nobuhiro et al., (2021), "Stacked phase-space density of galaxies around massive clusters: comparison of dynamical and lensing masses", Monthly Notices of the Royal Astronomical Society, 506(3): 3385-3405. [XC30; XC-B]
  169. Shirasaki, Masato and Moriwaki, Kana and Oogi, Taira et al., (2021), "Noise reduction for weak lensing mass mapping: an application of generative adversarial networks to Subaru Hyper Suprime-Cam first-year data", Monthly Notices of the Royal Astronomical Society, 504(2): 1825-1839. [計算サーバ]
  170. Shirasaki, Masato and Takahashi, Ryuichi and Osato, Ken et al., (2022), "Probing cosmology and gastrophysics with fast radio bursts: cross-correlations of dark matter haloes and cosmic dispersion measures", Monthly Notices of the Royal Astronomical Society, 512(2): 1730-1750. [XC-B+; XC-B]
  171. Sotani, Hajime and Takiwaki, Tomoya and Togashi, Hajime, (2021), "Universal relation for supernova gravitational waves", Physical Review D, 104(12). [CfCA内部 (XC50)]

これ以下はすばる望遠鏡の主焦点カメラ Hyper Suprime-Cam の戦略枠プログラムによる観測結果 (Hyper Suprime-Cam Subaru Strategic Program, 通称HSC SSP) のデータ処理に対するCfCAの協力が謝辞に明記されている論文です。

  1. Adams, N J and Bowler, R A A and Jarvis, M J et al., (2021), "Evolution of the galaxy stellar mass function: evidence for an increasing M* from z = 2 to the present day", Monthly Notices of the Royal Astronomical Society, 506(4): 4933-4951.
  2. Aihara, Hiroaki and AlSayyad, Yusra and Ando, Makoto et al., (2022), "Third data release of the Hyper Suprime-Cam Subaru Strategic Program", Publications of the Astronomical Society of Japan, 74(2): 247-272.
  3. Akino, Daichi and Eckert, Dominique and Okabe, Nobuhiro et al., (2022), 'HSC-XXL: Baryon budget of the 136 XXL groups and clusters', Publications of the Astronomical Society of Japan, 74(1): 175-208.
  4. Chang, Yu-Yen and Hsieh, Bau-Ching and Wang, Wei-Hao et al., (2021), "Identifying AGN Host Galaxies by Machine Learning with HSC+WISE", The Astrophysical Journal, 920(2): 68.
  5. Chao, Dani C.-Y. and Chan, James H.-H. and Suyu, Sherry H. et al., (2021), 'Strongly lensed candidates from the HSC transient survey', Astronomy & Astrophysics, 655: A114.
  6. Dubois, Yohan and Beckmann, Ricarda and Bournaud, Frédéric et al., (2021), "Introducing the NEWHORIZON simulation: Galaxy properties with resolved internal dynamics across cosmic time", Astronomy & Astrophysics, 651: A109.
  7. Endsley, Ryan and Stark, Daniel P, (2022), "Strong Lyman-α emission in an overdense region at z = 6.8: a very large (R ∼ 3 physical Mpc) ionized bubble in COSMOS?", Monthly Notices of the Royal Astronomical Society, 511(4): 6042-6054.
  8. Endsley, Ryan and Stark, Daniel P and Fan, Xiaohui et al., (2022), "Radio and far-IR emission associated with a massive star-forming galaxy candidate at z ≃ 6.8: a radio-loud AGN in the reionization era?", Monthly Notices of the Royal Astronomical Society, 512(3): 4248-4261. [その他]
  9. Harikane, Yuichi and Ono, Yoshiaki and Ouchi, Masami et al., (2022), 'GOLDRUSH. IV. Luminosity Functions and Clustering Revealed with ∼4,000,000 Galaxies at z ∼ 2–7: Galaxy–AGN Transition, Star Formation Efficiency, and Implication for Evolution at z > 10', The Astrophysical Journal Supplement Series, 259(1): 20.
  10. Kawinwanichakij, Lalitwadee and Silverman, John D. and Ding, Xuheng et al., (2021), "Hyper Suprime-Cam Subaru Strategic Program: A Mass-dependent Slope of the Galaxy Size−Mass Relation at z < 1", The Astrophysical Journal, 921(1): 38.
  11. Leauthaud, A and Amon, A and Singh, S et al., (2021), "Lensing without borders – I. A blind comparison of the amplitude of galaxy–galaxy lensing between independent imaging surveys", Monthly Notices of the Royal Astronomical Society, 510(4): 6150-6189.
  12. Léget, P.-F. and Astier, P. and Regnault, N. et al., (2021), "Improving the astrometric solution of the Hyper Suprime-Cam with anisotropic Gaussian processes", Astronomy & Astrophysics, 650: A81.
  13. Miller, Tim B. and van Dokkum, Pieter, (2021), "Bayesian Fitting of Multi-Gaussian Expansion Models to Galaxy Images", The Astrophysical Journal, 923(1): 124.
  14. Misato, Rana and Toba, Yoshiki and Ota, Naomi et al., (2022), "Do blue galaxy-clusters have hot intracluster gas?", Publications of the Astronomical Society of Japan, 74(2): 398-406.
  15. Oguri, Masamune and Miyazaki, Satoshi and Li, Xiangchong et al., (2021), 'Hundreds of weak lensing shear-selected clusters from the Hyper Suprime-Cam Subaru Strategic Program S19A data', Publications of the Astronomical Society of Japan, 73(4): 817-829.
  16. Pouliasis, E. and Georgantopoulos, I. and Ruiz, A. et al., (2022), "XXL-HSC: An updated catalogue of high-redshift (z ≥ 3.5) X-ray AGN in the XMM-XXL northern field", Astronomy & Astrophysics, 658: A175.
  17. Rana, Divya and More, Surhud and Miyatake, Hironao et al., (2022), "The Subaru HSC weak lensing mass-observable scaling relations of spectroscopic galaxy groups from the GAMA survey", Monthly Notices of the Royal Astronomical Society, 510(4): 5408-5425.
  18. Rosenwasser, Benjamin E. and Taylor, Anthony J. and Barger, Amy J. et al., (2022), 'Subaru/Hyper Suprime-Cam z-Broadband Excess Selection of Extreme Emission Line Galaxies at z < 1', The Astrophysical Journal, 928(1): 78.
  19. Schuldt, S. and Suyu, S. H. and Cañameras, R. et al., (2021), "Photometric redshift estimation with a convolutional neural network: NetZ", Astronomy & Astrophysics, 651: A55.
  20. Sohn, Jubee and Geller, Margaret J. and Hwang, Ho Seong et al., (2021), "The HectoMAP Cluster Survey: Spectroscopically Identified Clusters and their Brightest Cluster Galaxies (BCGs)", The Astrophysical Journal, 923(2): 143.
  21. Sonnenfeld, Alessandro, (2022), 'The effect of spiral arms on the Sérsic photometry of galaxies', Astronomy & Astrophysics, 659: A141.
  22. Wang, Wenting and Li, Xiangchong and Shi, Jingjing et al., (2021), "The Stellar Mass in and around Isolated Central Galaxies: Connections to the Total Mass Distribution through Galaxy–Galaxy Lensing in the Hyper Suprime-Cam Survey", The Astrophysical Journal, 919(1): 25.
  23. Yoshioka, Takehiro and Kashikawa, Nobunari and Inoue, Akio K. et al., (2022), 'CHORUS. IV. Mapping the Spatially Inhomogeneous Cosmic Reionization with Subaru HSC', The Astrophysical Journal, 927(1): 32.



その他の欧文報告

    該当なし



査読付き和文論文

    該当なし



その他の和文報告

    該当なし



書籍

  1. 鳥海森, (2021), "3-3-1.フレア活動領域の形成 (3-3.太陽嵐の予測)", 太陽地球圏環境予測 オープン・テキストブック. [XC-A]



国際会議・国内会議の集録

  1. Banerjee, S., Tanaka, M., Kawaguchi, K., Kato, D., and Gaigalas, G. (2022), "The simulations of early kilonova emission from neutron star mergers", IAU Symposium No. 363, Neutron Star Astrophysics at the Crossroads: Magnetars and the Multimessenger Revolution. [XC-B]
  2. F. Varsi, A.Oshima et al.(2021), "Cosmic ray energy spectrum and composition measurements from the GRAPES-3 experiment: Latest results", International Cosmic Ray Conference 2021. [計算サーバ; ファイルサーバ]
  3. Fukushima, Keita, and Nagamine, Kentaro, and Shimizu, Ikkoh, "Star Formation and Chemical Enrichment in Protoclusters", Galaxy Cluster Formation II (GCF 2021) - Virtual Workshop [XC-B]
  4. Hirashima, K. and Moriwaki, K. and Fujii, M. S. et al., (2022), "Predicting the Expansion of Supernova Shells for High-Resolution Galaxy Simulations Using Deep Learning", Journal of Physics: Conference Series, 2207(1): 012050. [XC-A; XC-MD]
  5. Igarashi, T., Kato, Y., Takahashi, R. H., Ohsuga, K., Matsumoto, Y., Matsumoto, R., "Radiation Magnetohydrodynamic Simulations of Soft X-ray Emitting Region in Active Galactic Nuclei", IAU Symposium 362. [XC-B]
  6. Ikuta, K., Maehara, H., Notsu, Y., Namekata, K., Kato, T., Okamoto, S., Notsu, S., Honda, S., Nogami, D., and Shibata, K. (2021), "Starspot mapping with parallel tempering for M-dwarf flare stars", tsc2.conf, 106. [XC-Trial]
  7. Nakamura, Ko, (2021), "Core-collapse simulation of SN 1987A binary progenitor and its multimessenger signals", Journal of Physics: Conference Series, 2156(1): 012232. [XC-B+]
  8. Nakamura, Ko, (2022), "Three-dimensional supernova simulation of SN 1987A progenitor with implications for multi-messenger signals", EPJ Web of Conferences, 260: 11020. [XC-B+]
  9. Tomita, Sara and Ohira, Yutaka, (2021), "Magnetic field amplification by turbulent dynamo in relativistic collisionless shocks", Proceedings of 37th International Cosmic Ray Conference — PoS(ICRC2021). [XC-B+]
  10. Yokoyama, Shota and Ohira, Yutaka, (2021), "Particle acceleration by sound waves generated in the shock downstream region", Proceedings of 37th International Cosmic Ray Conference — PoS(ICRC2021). [XC-B]
  11. Yoshikawa, K., Tanaka S., and Yoshida N. (2021), "A 400 trillion-grid Vlasov simulation on Fugaku supercomputer: large-scale distribution of cosmic relic neutrinos in a six-dimensional phase space", SC '21: Proceedings of the International Conference for High Performance Computing, Networking, Storage and AnalysisNovember 2021. [XC-B+]
  12. 吉田雄城, 小久保英一郎, 田中秀和 (2021), "分子動力学シミュレーションで探るダストモノマー間相互作用", 日本惑星科学会秋季講演会, O08-06. [XC-Trial; GRAPE/GPU]
  13. 吉田雄城, 小久保英一郎, 田中秀和 (2022), "分子動力学で探るモノマー間相互作用", 天文学会2022年春季年会, P218a. [XC-Trial; GRAPE/GPU]
  14. 寺澤凌, 高田昌広, 高橋龍一, 西道啓博 (2022), "曲率を持つ宇宙の質量密度揺らぎの非線形パワースペクトルの計算法の開発", 天文学会春季年会. [XC-MD(追加募集分); XC-Trial]
  15. 桑原歩, 黒川宏之, 谷川享行, 井田茂 (2021), "原始惑星が駆動するガス流が粒子の動径移動に及ぼす影響:原始惑星系円盤のリング・ギャップ構造への示唆", 日本惑星科学会 2021年秋季講演会. [XC-B]
  16. 藤本 信一郎, 勝田 哲, 寺田 幸功 (2021), "重力崩壊型超新星における核崩壊に伴う核γ線・電子捕獲 X 線の検出可能性", 日本天文学会2021年秋期年会. [計算サーバ]



その他の出版物

    該当なし



博士学位論文

  1. 林利憲(2022), "Gravitational hierarchical three-body systems with an invisible inner binary: application to binary black-hole search and their dynamical stability", 東京大学. [計算サーバ]
  2. Shijie Wang(2022), "Planetary systems predicted from the ALMA disks: planet-disk evolution and long-term orbital stability of multi-planets", 東京大学. [計算サーバ]
  3. Sakre Nirmit Deepak(2022), "Massive core/star formation triggered by cloud-cloud collision: Effects of magnetic fields and collision speeds", 北海道大学. [XC-B]
  4. 財前真理(2022), "Dynamics and Symmetry Breaking of Collective Neutrino Oscillation in Core-Collapse Supernovae", 東京大学. [XC-B+]
  5. 三杉佳明(2022), "On the Origin and Evolution of the Angular Momentum of Star Forming Cores in Filamentary Molecular Clouds (フィラメント状分子雲における分子雲コアの角運動量についての理論的研究)", 名古屋大学. [XC-B]
  6. 安藤梨花(2022), "暗黒物質分布を用いたHIパワースペクトルの再構築", 名古屋大学. [XC-B]
  7. 阿左美進也(2022), "Suppression of H2 formation due to Lyα feedback in early cosmological objects", 筑波大学. [XC-B]



修士学位論文

  1. 土本菜々恵(2022), "Signatures of Heavy Elements in Optical and Near-Infrared Spectra of Neutron Star Mergers", 東北大学. [XC-MD]
  2. 福原優弥(2022), "Modeling the Vertical Shear Instability Controlled by Dust Evolution in Protoplanetary Disks", 東京工業大学. [XC-B(追加募集分); XC-Trial]
  3. 胡博超(2022), "Model calculations for infrared and radio observations of circumplanetary disks", 東京工業大学. [計算サーバ]
  4. 伊名波翔(2022), "Hydrodynamical Study to Elucidate the Formation Mechanism of Retrograde Circumplanetary Disks", 東京大学. [XC-MD(追加募集分); XC-Trial]
  5. 国吉秀鷹(2022), "Radiative MHD simulations of solar coronal loops considering the energy injection from intergranular lanes", 東京大学. [XC-B(追加募集分); XC-MD]
  6. 小田中佑樹(2022), "Chondrule production rate and accumulation rate by planetesimals excited by Jupiter", 名古屋大学. [計算サーバ]
  7. 尾形絵梨花(2022), "Hoyle-Lyttleton accretion on to black hole accretion disks with super-Eddington luminosity for dusty gas", 筑波大学. [XC-Trial]
  8. 油谷 直道(2022), "Origin and evolution of the dust-obscured galaxies in galaxy mergers with Supermassive black holes", 鹿児島大学. [XC-B]
  9. 周新宇(2022), "Ca II 8542Angstrom synthetic Stokes profile on chromospheric reconnection events in 2D radiative MHD simulation of solar active region", 東京大学. [XC-MD]
  10. 喜友名正樹(2022), "宇宙最初のcold accretion発現と超大質量星形成の可能性", 京都大学. [XC-MD(追加募集分); XC-Trial]
  11. 堀之内弘将(2022), "超新星1987Aの重力崩壊シミュレーションにおける核物質状態方程式依存性", 福岡大学. [XC-MD]
  12. 寺口遼(2022), "Cold Steamによる銀河の星形成と角運動量への影響", 大阪大学. [XC-B(追加募集分); XC-Trial]
  13. 木田洋輔(2022), "原始惑星のHit-and-Run衝突の数値シミュレーション", 神戸大学. [XC-MD(追加募集分); XC-Trial]
  14. 樋口諒(2022), "超新星衝撃波における宇宙線フェルミ加速のシミュレーションコードの開発と精度比較", 名古屋大学. [XC-MD]
  15. 橋本愛鈴(2022), "惑星形成過程への惑星移動プロセスの影響の研究", 神戸大学. [XC-MD]
  16. 正木寛之(2022), "機械学習と数値シミュレーションを組み合わせた太陽表面の速度場・磁場推定", 千葉大学. [XC-B]
  17. 清水莉緒(2022), "マグマオーシャンを持つ原始地球の巨大衝突の研究", 神戸大学. [XC-MD]
  18. 田中一詳(2022), "3次元流体シミュレーションを用いた星間物質の降着流と恒星風の優劣分岐点の解明", 青山学院大学. [XC-MD]
  19. 薦田幸弘(2022), "3つの核物質状態方程式を用いた超新星1987Aの数値シミュレーションに基づくニュートリノ・重力波シグナル解析", 福岡大学. [XC-MD]
  20. 駒木彩乃(2022), "原始惑星系円盤の消失過程", 東京大学. [XC-MD]
  21. 齊部和樹(2022), "2 型セイファート銀河NGC1068 の分子トーラス における逆回転コアの形成メカニズムの解明", 鹿児島大学. [XC-MD]



学士学位論文

  1. 島田悠愛(2022), "突発的超臨界降着現象の研究", 筑波大学. [XC-Trial]
  2. 木村正(2022), "活動銀河核における超高速アウトフローと周辺物質との相互作用", 鹿児島大学. [XC-Trial]
  3. 西田海斗(2022), "核周円盤から出る磁気駆動アウトフローの発達と周囲に与える影響", 大阪大学. [XC-Trial]



その他の学位論文

  1. 佐々木俊輔(2022), "現象論的乱流効果を導入した重力崩壊型超新星爆発シミュレーション", 総合研究大学院大学. [XC-B(追加募集分); 計算サーバ]




年報 第16号に戻る